EP1313585B1

EP1313585B1 - Clamping tool holder

Info

Publication number: EP1313585B1
Application number: EP01958926A
Authority: EP
Inventors: Linn R. Andras; Lee E. Yothers
Original assignee: Kennametal Inc
Current assignee: Kennametal Inc
Priority date: 2000-08-24
Filing date: 2001-07-13
Publication date: 2010-06-30
Anticipated expiration: 2021-07-13
Also published as: KR20030038708A; ATE472386T1; MXPA03001651A; AU2001280531B2; CN1227087C; EP1313585A4; CA2420435A1; AR030384A1; WO2002016065A1; CN1449318A; US6457914B1; AU8053101A; BR0113566A; DE60142478D1; EP1313585A1; KR100643216B1; JP2004506527A; DE1313585T1

Description

The present invention pertains to a clamping tool holder and for releasably securing an insert to the clamping tool holder.

BACKGROUND OF THE INVENTION

Typically, tool holder mechanisms utilize a conical bore whose axis is offset from the threaded section of the locking pin receiving hole to tilt the locking pin into abutment with the cutting insert. These designs are difficult to machine because the location of the conical bore must be maintained within a relatively tight tolerance if it is to achieve the desired tilting of the locking pin.
In addition, many tool holders utilize a resilient member, such as a spring, for urging the clamp in a forward direction as the clamp moves in a downward direction by the clamp screw. These designs need high precision and include unnecessary components, thereby resulting in increased manufacturing costs. Therefore, there is a need to provide a tool holder for clamping an insert that is simple to manufacture and has improved manufacturing tolerances while requiring fewer components.
The German Patent Application DE 37 09 135 discloses a tool holder according to the preambles of claims 1 and 5 comprising a tool holder body provided with a pocket for receiving the tool insert. A clamp is arranged on the tool holder body which comprises a nose portion. A screw is provided within a threaded hole in order to urge the clamp into pressing engagement with the insert.
The European Patent Application EP 0 155 859 discloses a clamping arrangement for mounting cutting inserts. A clamp shoe is provided for fixing a cutting tool to a tool holder body. A projection nose of the clamp engages a depression in the insert for securement. A rear portion of the tool holder body is provided with a bolt arranged between two cam means provided on the rear portion of the clamp.
An object of the invention is to provide a tool holder for releasably clamping an insert within a tool holder body.
According to the present invention, such a tool holder for securing an insert is provided as defined in claims 1 and 5. An arrangement of inclined surfaces on the tool holder body and on the clamp is provided and arranged such that they act as a ramp to enable the clamp to slide downward and rearward, when the clamp is brought into pressing engagement with the insert. Moreover, a nose portion of the clamp engages only a rearward inside surface of a mounting bore of the insert and at the same time, a pad of the clamp engages only a top surface of the insert in the rearward direction. Finally, the present tool holder comprises a guide pin which is received in the tool holder body and in the clamp, which guides the clamp with respect to the tool holder during assembly and which prevents rotation of the clamp.

BRIEF DESCRIPTION OF THE DRAWINGS

While various embodiments of the invention are illustrated, in the following description.

Fig. 1 is an exploded side perspective view of the clamping tool body in accordance with a first embodiment of the invention.
Fig. 2 is a side perspective view of the clamping tool body with the clamp engaging the insert in accordance with the first embodiment of the invention.
Fig. 3 is a partial cutaway cross-sectional view of the clamping tool body with the clamp not enraging the insert in accordance with the first embodiment.
Fig. 4 is a partial cutaway cross-sectional view of the clamping tool body with the clamp engaging the insert in accordance with the first embodiment.
Fig. 5 is a side perspective view of the clamp engaging the insert.
Fig. 6 is a top view of the clamp engaging the insert.
Fig. 7 is a partial cutaway cross-sectional view of the clamping tool body with the clamp engaging the insert in accordance with a second embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

One embodiment of the clamping tool holder 100 is shown in Figs. 1-6. The clamping tool holder 100 comprises a tool holder body 102 having an insert-receiving pocket 104 formed in its upper surface 106 at a corner of its forward end portion. The insert receiving pocket 104 has a bottom 108 and angularly-disposed side walls 110. An insert 112 having a mounting bore 114 formed therethrough is disposed on the bottom 108 of the pocket 104 with a seat member 116 interposed therebetween. Although the insert 112 can be any shape, the illustrated insert 112 is generally square in shape having a top surface 112a. An internally threaded bore 118 is formed in the bottom 108 of the pocket 104, and a bore 120 having an upper portion tapering downward is formed through the seat member 116. The seat member 116 is fixedly secured to the insert-receiving pocket 104 by means of a countersunk screw 122 inserted through the bore 120 and screwed into the threaded bore 118.
In an alternative embodiment, the insert 112 can be disposed on the bottom 108 of the pocket 104 without the use of the seat member 116 and the head screw 122.
As best seen in Fig. 3, an inclined surface 124 sloping inwardly in a direction away from the insert-receiving pocket 104 is formed on that portion of the upper surface 106 of the tool body which is displaced rearwardly of the tool body with respect to the pocket 104. The inclined surface 124 is arranged at a prescribed angle with respect to the axis of the bore 118. An internally threaded clamp-securing bore 126 is formed in the tool holder 100 and is located between the inclined surface 124 and the insert-receiving pocket 104. The clamp-securing bore 126 is preferably at a prescribed acute inclination angle, θ, with respect to the axis of the bore 118.
The tool holder 100 further includes a pin-receiving bore 128 formed in the tool holder 100. The pin-receiving bore maintains alignment of the clamp and the tool body as the clamp 130 presses downward and rearward on the insert 112. As best seen in Figs. 3 and 4, the pin-receiving bore 128 is located between the inclined surface 124 and the clamp-securing bore 126. In the second embodiment the inclined surface 124 is located between the pin-receiving bore 128 and the clamp-securing bore 126, as shown in Fig. 7. Preferably, the pin-receiving bore 128 has an inclination angle, θ₁, with respect to the axis of the bore 114 that is approximately the same as the inclination angle, θ, defined between the clamp-securing bore 126 and the axis of the bore 118. In other words, the pin-receiving bore 128 and the clamp-securing bore 126 are substantially parallel to each other. It should be noted that the angle of the inclined surface 124 with respect to the bore 118 may be the approximately the same or may be different than the prescribed angle of the clamp-securing bore 126 with respect to the bore 118.
A clamp 130 is arranged on the upper surface 106 of the tool holder body 102. As best shown in Fig. 3, the clamp 130 is of a generally C-shape in side elevation having a tapered forward portion 132 and tapered side portions 132a, 132b to provide a low profile design. The low profile design facilitates the removal of chips during the cutting process. Formed in the center of the clamp 130 is an aperture 134 which has approximately the same diameter as the clamp-securing bore 126 of the tool holder 100. As best shown in Fig. 1, the aperture 134 is formed so that its axis is concentric with the axis of the clamp-securing bore 126.
As best seen in Fig. 3, the lower face of the forward portion 132 of the clamp 130 includes an arcuately-shaped nose portion 136 to be held in engagement with the inside surface of the mounting bore 114 of the insert 112. The nose portion 136 also includes an indentation or notch portion 136a to facilitate in the engagement of the nose potion 136 and the mounting bore 114 of the insert 112. The clamp, 130 includes a forward lower face 137 and a rearward lower face 138. The forward lower face 137 includes one or more pair of pads 137a, 137b for engaging the top surface 112a of the insert 112. The pads 137a, 137b assist in distributing the downward and rearward force of the clamp 130 over the top surface 112a of the insert 112. It will be appreciated that the number of pads 137a, 137b is not limited. For example, the lower face 137 may include a third pad to form a tripod-shaped pad arrangement. The rearward lower face 138 is formed so as to be positioned higher than the forward lower face 137 so as to not engage the insert 112 when the pads 137a, 137b are engaging the top surface 112a of the insert 112, as best shown in Figs. 4 and 5.
The clamp 130 has an inclined surface 140 formed at a proximal end thereof so as to protrude downward and rearward with respect to the bore 118. The inclined surface 140 is at approximately the same angle as the angle of the inclined surface 124 of the holder 102 to enable the inclined surfaces 124, 140 to act as a ramp to enable the clamp 130 to more easily slide downward and rearward when the clamp 130 is brought into pressing engagement with the insert 112. The inclined surfaces 124, 140 acting as a ramp provide a crucial "pull back" feature.
It should be noted that the relative angle between the clamp-securing bore 126 and the inclined surfaces 124, 140 can be "tuned" to provide a desired downward force and/or rearward force on the insert 112. Preferably, the angle of the clamp-securing bore 126 and of the inclined surfaces 124, 140 is approximately 40 degrees with respect to a vertical axis, V, to provide slightly more downward force than rearward force on the insert 112. However, it will be appreciated that the relative angle between the clamp-securing bore 126 and the inclined surfaces 124, 140 be the same angle or may differ by any desired amount. For example, the clamp-receiving bore 126 may have an angle of 40 degrees or more with respect to the vertical axis, V.
The clamp 130 is secured to the tool holder body 102 by means of a double-ended clamp screw 142 having opposite threaded portions 144, 146 which is inserted through the aperture 134 and screwed into the threaded clamp-securing bore 126 and the aperture 134 of the clamp 130. The threaded portion 144 and the aperture 134 are threaded in a direction opposite to the threaded portion 146 and the clamp securing bore 126 of the tool holder body 102. For example, the bore 126 of the tool holder body 102 may have right hand threads and the aperture 134 of the clamp 130 may have left hand threads. The acute inclination angle, θ, of the clamp-securing bore 126 and the bore 118 allows the clamp 130 to move downward and rearward as the clamp screw 142 is tightened. The use of a double-threaded clamp screw 142 allows the indexing of the clamp 130 to be twice as fast as conventional tool holders using spring mechanisms and the like, thereby reducing downtime and increasing production time. It will be appreciated that the threads of the aperture 134 and the bore 126 may be slightly larger than the threads of the clamp screw 142 to allow for variations in design, i.e. manufacturing tolerances in the tool holder 100.
The lower face 138 of the clamp 130 also includes a pin-receiving bore 148 positioned between the inclined surface 140 and the aperture 134. As best shown in Figs. 3, 4 and 7, the pin-receiving bore 148 of the clamp 130 is formed so that its axis is substantially concentric with the axis of the pin-receiving bore 128 of the tool holder body 102. A guide pin 150 is disposed within the pin-receiving bores 128, 148 to prevent the clamp 130 from spinning or twisting in an axial direction (in a direction perpendicular to the direction of travel of the clamp screw 142) when turning of the clamp screw 142 to loosen or tighten the clamp 130. Although the guide pin 150 can be formed of a solid pin, the guide pin 150 is preferably formed of a slotted spring pin that can flex, expand or compress to allow for variations in design and wear of the tool holder 100. Specifically, the slotted spring pin 150 can flex to maintain the relative positions of the aperture 134, the bore 126, the pin-receiving bore 128 and the pin-receiving bore 148 to compensate for changes in the inclination angle, θ₁, that may result due to manufacturing tolerances and wear of the tool body 102, the mounting bore 114, and the clamp 130 (i.e., alignment creep). The guide pin 150 can be press fit into the pin-receiving bore 128 of the tool holder body 102. The length of the guide pin 150 is selected to allow the clamp 130 to move away from the insert 112 while preventing the clamp 130 from spinning or twisting in the axial direction.
Preferably, the diameter of the pin-receiving bore 148 can be slightly larger than the diameter of the guide pin 150 to allow free movement of the guide pin 150 within the pin-receiving bore 148. In addition, the diameter of the pin-receiving bore 128 can be slightly larger than the diameter of the guide pin 150.
With reference to Figs. 3 and 4, the clamping operation of the tool holder 100 using the clamp 130 will now be described. Usually, since the clamping operation is required only when replacing the cutting insert with a new one, it is not necessary to move the clamp 130 upward from the position shown in Fig. 3. Therefore, there may be provided a stop member (not shown) to prevent the clamp screw 140 from being further loosened from the state shown in Fig. 3.
From the state shown in Fig. 3 where the clamp screw 142 is loosened, the clamp screw 142 is first screwed into the clamp-securing hole 126 to cause the clamp 130 to move downward and rearward with respect to the insert 112. The clamp 130 is guided by guide pin 150 as it moves downward.and rearward along the axis of the pin-receiving bore 128 of the tool holder body 102.
As the clamp 130 is further tightened by turning the clamp screw 142, the forward portion 132 of the clamp 130 is caused to positively move into the mounting bore 114 of the insert 112 without abutting against the upper face of the insert 112. Then, the nose portion 136 presses the insert 112 toward the bottom 108 and the side walls 110 of the pocket 104. As the clamp is further tightened, the pads 137a, 137b press against the top surface 112a of the insert 112. In addition, the inclined surfaces 124, 140 act as a ramp to cause the clamp 130 to press the insert 112 downward and rearward to further secure the insert 112 to the pocket 104.
One important advantage is that the clamp 130 only contacts the inner surface of the mounting bore 114 and the top surface 112a of the insert 112 when the clamp 130 is brought into pressing engagement with the insert 112. Specifically, the nose portion 136 of the clamp 130 engages only the rearward inner surface of the mounting bore 114, as best shown in Figs. 4 and 5. Once the nose portion 136 engages the inner surface of the mounting bore 114, the pads 137a, 137b engage only the rearward portion of the top surface 112a of the insert 112, as best shown in Fig. 6. Another important advantage is that the lower face 138 of the clamp 130 does not engage the insert 112 when the clamp 130 is brought into pressing engagement with the insert 112 because the lower face 138 is formed at a higher elevation than the nose portion 136, as best shown in Fig. 4.
It will be appreciated that the invention is not limited by the type and shape of the insert 112, and that the invention can be practiced with any desirable shape and type of insert. For example, when the insert 112 is of a triangular in shape, rather than square or rectangular, the receiving pocket 104 can also be triangular in shape to accommodate the shape of the insert 112.
When removing the insert 112 from the tool holder body 102, the clamp screw 142 is turned to cause the clamp 130 to move obliquely along the inclined surface 106 while being urged upwardly so that the pressing force of the nose portion 136 of the clamp 112 against the insert 112 is released. As the clamp 130 is further loosened, the sliding face 140 is separated from the inclined surface 124, as shown in Fig. 3. In this released condition, the nose portion 136 of the clamp 130 is positioned above the insert 112 such that the insert 112 can be easily removed and replaced by a new insert 112. Accordingly, the clamp 130 is released such that replacing operation for the insert 112 can be conducted efficiently.
As described above, the clamp 130 is caused to move downward and rearward by means of the double-ended clamp screw 140 to engage only the inside surface of the mounting bore 114 and the rearward top surface 112a of the insert 112. This action brings the insert 112 into pressing engagement with the bottom 108 and the side faces 110. of the pull back clamping tool holder 100 to exert a uniform clamping force on the insert 112. To prevent the clamp 130 from twisting when tightening or loosening .the clamp 130, the clamp screw 140 and guide pin 150 keep the clamp 130 and the tool holder body 102 in proper alignment with each other.
Having described presently preferred embodiments the invention may be otherwise embodied within the scope of the appended claims.

Claims

A tool holder for releasably securing an insert (112) having a mounting bore (114) formed therethrough, comprising:
a tool holder body (102) including an insert-receiving pocket (104) formed at a forward end thereof and having a bottom (108) and at least one side wall (110) for receiving the insert (112), the bottom (108) of the insert-receiving pocket (104) having an internally threaded mounting bore (118), the tool holder body (102) further including an internally threaded clamp-securing bore (126) formed between an inclined surface (124) and the insert-receiving pocket (104), wherein said inclined surface (124) is arranged at a prescribed angle (Θ₁) with respect to the mounting bore (118) of the tool holder body (102),

a clamp (130) arranged on the tool holder body (102), the clamp (130) including a lower face (137, 138) with a nose portion (136) and at least one pad (137a, 137b), the clamp (130) further includes a threaded aperture (134) formed therethrough and an inclined surface (140) formed at a proximal end having approximately the same prescribed angle as the inclined surface (124) of the tool holder body (102),

a clamp screw (142) inserted into the threaded aperture (134) of the clamp (130), the clamp screw (142) having a threaded portion (144, 146) capable of being threaded onto the internally threaded clamp-securing bore (126) of the tool holder body (102) and the threaded aperture (134) of the clam (130) to bring the clamp (130) into pressing engagement with the insert (112),

wherein the inclined surface (124) of the tool holder body (102) and the inclined surface (140) of the clamp (130) act as a ramp to enable the clamp (130) to slide downward and rearward when the clamp (130) is brought into pressing engagement with the insert (112), and

wherein the nose portion (136) of the clamp (130) only engages a rearward inside surface of the mounting bore (114) of the insert (112) when the clamp is brought into pressing engagement with the insert,

characterized in that

said tool holder body (102) includes a pin-receiving bore (128) located between the clamp-securing bore (126) and the inclined surface (124) of the tool holder body (102) and said clamp (130) includes a pin-receiving bore (148) formed therein;

a guide pin (150) is at least partially received within the pin-receiving bore (128) of the tool holder body (102) and the pin-receiving bore (148) of the clamp (130), the guide pin (150) guiding the clamp (130) when the clamp is brought into pressing engagement with the insert (112),

wherein the at least one pad (137a, 137b) of the clamp (130) only engages a top surface. (112a) of the insert (112) rearward of the mounting bore (114), when the clamp (130) is brought into pressing engagement with the insert (112).
The tool holder according to claim 1, wherein the angle between the inclined surface (124) of the tool holder body (102) and the inclined surface (140) of the clamp (130) is different than the angle (Θ) between the mounting bore (118) and the clamp-securing bore (126) of the tool holder body (102).
The tool holder according to Claim 1 or 2, wherein the pin-receiving bore (128) of the tool holder body (102) and the pin-receiving bore (148) of the clamp (130) are formed at an angle approximately equal to an angle (Θ) formed between the mounting bore (118) and the clamp-securing bore (126) of the tool holder body (102).
The tool holder according to any of the preceding claims, wherein the clamp screw (142) is a double-ended clamp screw having a first threaded portion (144) and a second threaded portion (146) being threaded in a direction opposite than the first threaded portion (144), the first threaded portion (144) capable of being threaded onto the clamp screw (142), the second threaded portion (146) capable of being threaded onto the intemally-threaded clamp-securing bore (126).
A tool holder for releasably securing an insert (112) having a mounting bore (114) formed therethrough, comprising:
a tool holder body (102) including an insert-receiving pocket (104) formed at a forward end thereof and having a bottom (108) and at least one side wall (110) for receiving the insert (112), the bottom (108) of the insert-receiving pocket (104) having an internally threaded mounting bore (118), the tool holder body (102) further including an internally threaded clamp-securing bore (126) formed between an inclined surface (124) and the insert-receiving pocket (104), wherein said inclined surface (124) is arranged at a prescribed angle (Θ₁) with respect to the mounting bore (118) of the tool holder body (102),

a clamp (130) arranged on the tool holder body (102), the clamp (130) including a lower face (137, 138) with a nose portion (136) and at least one pad (137a, 137b), the clamp (130) further includes a threaded aperture (134) formed therethrough and an inclined surface (140) formed at a proximal end having approximately the same prescribed angle as the inclined surface (124) of the tool holder body (102),

a clamp screw (142) inserted into the threaded aperture (134) of the clamp (130), the clamp screw (142) having a threaded portion (144, 146) capable of being threaded onto the internally threaded clamp-securing bore (126) of the tool holder body (102) and the threaded aperture (134) of the clamp (130) to bring the clamp (130) into pressing engagement with the insert (112),

wherein the inclined surface (124) of the tool holder body (102) and the inclined surface (140) of the clamp (130) act as a ramp to enable the clamp (130) to slide downward and rearward when the clamp (130) is brought into pressing engagement with the insert (112), and

wherein the nose portion (136) of the clamp (130) only engages a rearward inside surface of the mounting bore (114) of the insert (112) when the clamp is brought into pressing engagement with the insert,

characterized in that

said tool holder body (102) includes a pin-receiving bore (128) located rearward of the inclined surface (124) of the tool holder body (102) and said clamp (130) includes a pin-receiving bore (148) formed therein;

a guide pin (150) is at least partially received within the pin-receiving bore (128) of the tool holder body (102) and the pin-receiving bore (148) of the clamp (130), the guide pin (150) guiding the clamp (130) when the clamp is brought into pressing engagement with the insert (112),

wherein the at least one pad (137a, 137b) of the clamp (130) only engages a top surface (112a) of the insert (112) rearward of the mounting bore (114), when the clamp (130) is brought into pressing engagement with the insert (112).
The tool holder according to claim 5, wherein the angle between the inclined surface (124) of the tool holder body (102) and the inclined surface (140) of the clamp (130) is different than the angle (Θ) between the mounting bore (118) and the clamp-securing bore (126) of the tool holder body (102).
The tool holder according to Claim 5 or 6, wherein the pin-receiving bore (128) of the tool holder body (102) and the pin-receiving bore (148) of the clamp (130) are formed at an angle approximately equal to an angle (Θ) formed between the mounting bore (118) and the clamp-securing bore (126) of the tool holder body (102)
The tool holder according to claim 5, 6 or 7, wherein the clamp screw (142) is a double-ended clamp screw having a first threaded portion (144) and a second threaded portion (146) being threaded in a direction opposite than the first threaded portion (144), the first threaded portion (144) capable of being threaded onto the clamp screw (142), the second threaded portion (146) capable of being threaded onto the intemally-threaded clamp-securing bore (126).